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Kinematic Bias in Cosmological Distance Measurement

Recent calculations using non-linear relativistic cosmological perturbation theory show biases in the mean luminosity distance and distance modulus at low redshift. We show that these effects may be understood very simply as a non-relativistic, and purely kinematic, Malmquist-like bias, and we describe how the effect changes if one averages over sources that are limited by apparent magnitude. This effect is essentially identical to the distance bias from small-scale random velocities that has previously been considered by astronomers, though we find that the standard formula overestimates the homogeneous bias by a factor 2.

preprint2015arXivOpen access
Nick KaiserMichael J. Hudson
astro-ph.CO
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Nick KaiserMichael J. Hudson

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